VL CONNECTOR
Crimp
Disconnectable Crimp style connectors
6.2mm
(.244") pitch
Features ––––––––––––––––––––––––
• Housing lances for contact retention
Since the contact retention lances are part of the housing
rather than protruding from the contact, they cannot be
damaged by handling. They allow the contact to be easily
inserted and securely locked into the housing.
• Secondary retainer
The secondary retainer is optionally available. This retainer ensures
that the contacts are fully seated and locked in the housing and
prevents their accidental release. Installed after the contacts are
inserted, the secondary retainer locks and secures the contacts.
• Suited for circuits with high power requirements
Since these contacts have large cross-sectional areas and high
contact pressure, they can accommodate circuits requiring high power.
• Two kinds of connections
The VL connectors can be used for wire-to-wire or wire-to-board
connections.
a
L
JS
T
0
This 6.2mm (.244") pitch wire-to-board
connector is designed for circuits with high
power requirements.
Specifications –––––––––––––––––––
• Current rating: 20A AC, DC
• Voltage rating: 600V AC, DC
• Temperature range: -25˚C to +90˚C
(including temperature rise in applying
electrical current)
• Contact resistance: Initial value/7m Ω max.
After environmental testing/10m Ω max.
• Insulation resistance:
1,000M Ω min.
• Withstanding voltage: 2,000V AC/minute
• Applicable wire: AWG #20 to #12
• Applicable PC board thickness: 1.6mm(.063")
* Contact JST for details.
Note:
The current rating differs depending on the number of circuits and the wire size
used in each connector. The table below lists the current rating as a function of
the number of circuits and the wire size.
Current unit:A
Circuits
*2(3)
3
4
6
8
12
#12
#14
Wire size(AWG)
#16
20
17
16
15
14
13
15
14
13
12
11
10
10
9
9
8
7
7
#18
8
8
7
7
6
6
#20
6
6
6
5
5
4
Note:
Do not branch in parallel current which exceeds the rated current (eg. more than 17A in
the case of 3 circuits with AWG #12). If branched in parallel, current imbalance or other
problems may develop. If it is absolutely necessary to branch such a large current in
parallel, design the circuits without causing any imbalance and provide an extra margin
for each circuit.
Standards ––––––––––––––––––––––
0
1
2
Recognized E60389
Certified LR20812
R9351103
167